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Practical Audio Electronics [Pehme köide]

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  • Formaat: Paperback / softback, 420 pages, kõrgus x laius: 235x191 mm, kaal: 860 g, 34 Tables, black and white; 329 Line drawings, black and white; 117 Halftones, black and white; 446 Illustrations, black and white
  • Ilmumisaeg: 30-Jan-2020
  • Kirjastus: CRC Press
  • ISBN-10: 0367359855
  • ISBN-13: 9780367359850
Teised raamatud teemal:
Practical Audio ElectronicsSuurem pilt
  • Formaat: Paperback / softback, 420 pages, kõrgus x laius: 235x191 mm, kaal: 860 g, 34 Tables, black and white; 329 Line drawings, black and white; 117 Halftones, black and white; 446 Illustrations, black and white
  • Ilmumisaeg: 30-Jan-2020
  • Kirjastus: CRC Press
  • ISBN-10: 0367359855
  • ISBN-13: 9780367359850
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780367359850.html
Märksõnad:

Practical Audio Electronics is a comprehensive introduction to basic audio electronics and the fundamentals of sound circuit building, providing the reader with the necessary knowledge and skills to undertake projects from scratch.

Imparting a thorough foundation of theory alongside the practical skills needed to understand, build, modify, and test audio circuits, this book equips the reader with the tools to explore the sonic possibilities that emerge when electronics technology is applied innovatively to the making of music. Suitable for all levels of technical proficiency, this book encourages a deeper understanding through highlighted sections of advanced material and example projects including circuits to make, alter, and amplify audio, providing a snapshot of the wide range of possibilities of practical audio electronics.

An ideal resource for students, hobbyists, musicians, audio professionals, and those interested in exploring the possibilities of hardware-based sound and music creation.

List of Tables
xiii
Learning by Doing xv
Proofs and Derivations xvii
Preface xix
1 Introduction
1(6)
I Electrical Theory
2 Electricity
7(22)
Key Concepts in Electricity
7(2)
Electric Charge
9(1)
Static and Current Electricity
10(2)
Current and Circuits
12(2)
Direct and Alternating Current
14(2)
Voltage
16(1)
Resistance
17(1)
Power
18(1)
Electricity and Magnetism
18(5)
Conductors and Insulators
23(5)
References
28(1)
3 Semiconductors
29(12)
Pure Silicon
29(1)
Doped Silicon
30(1)
The P-N Junction
31(3)
Diodes and Transistors
34(4)
Germanium Semiconductors
38(1)
References
39(2)
4 Mains Electricity and Electrical Safety
41(16)
Mains Power Generation and Distribution
42(2)
Building Wiring
44(1)
The Fuse Box
45(1)
Wiring Safety
46(6)
Appliance Protection Classes
52(2)
Three Phase Power
54(1)
References
55(2)
5 Signal Characteristics
57(26)
Time Domain and Frequency Domain Representations
57(2)
Phase and Polarity
59(1)
Rectification
60(1)
Clipping
60(2)
Crossover Distortion
62(1)
The Sine Wave
63(4)
Complex Signals
67(5)
Decibels
72(7)
References
79(4)
II Practical Electronics
6 Component Overview
83(12)
Passive Components
83(2)
Semiconductor Devices
85(4)
Vacuum Tubes
89(1)
Transducers
89(1)
Miscellaneous Components
90(3)
References
93(2)
7 Circuit Diagrams
95(26)
Block Diagrams
95(1)
Schematic Diagrams
96(8)
Breadboard Layouts
104(7)
Stripboard Layouts
111(3)
A More Elaborate Example
114(5)
References
119(2)
8 Electronics Lab Equipment
121(18)
Bench Power Supply Units
122(3)
Function Generators
125(2)
Multimeters
127(6)
Oscilloscopes
133(5)
Audio Analysers and Advanced Test Gear
138(1)
References
138(1)
9 Basic Circuit Analysis
139(14)
Primary Quantities
139(1)
Ohm's Law
140(1)
Watt's Law
141(1)
Kirchhoff's Current Law (KCL)
141(1)
Kirchhoff's Voltage Law (KVL)
142(1)
Applying the Four Laws
143(9)
References
152(1)
10 Constructing Circuits
153(8)
The Project Pipeline
153(1)
Initial Idea, Concept Development, and Background Research
154(1)
Procurement
155(1)
Prototyping, Testing, Development, and Final Layout Design
156(2)
Circuit Building
158(2)
Packaging
160(1)
References
160(1)
11 Projects
161(28)
Project I Low Power Audio Amplifier
162(11)
Project II Stepped-Tone Generator
173(6)
Project III Modulation Effect
179(6)
References
185(4)
III Component Reference
12 Resistors
189(24)
E-Series Preferred Values
190(1)
Tolerance
191(1)
Resistor Colour Codes
192(1)
Power Rating
193(1)
Material and Temperature Coefficient
194(1)
Electrical Behaviour
195(3)
Series Rule and Parallel Rule
198(2)
Voltage Divider Rule (VDR)
200(2)
Variable Resistors
202(4)
Photoresistors
206(1)
Thermistors
206(1)
Instructive Examples
207(4)
References
211(2)
13 Capacitors and Inductors
213(28)
Capacitors
213(3)
Inductors
216(3)
Characteristics of Capacitors and Inductors
219(1)
Device Impedance
220(4)
Series and Parallel Rules
224(2)
RLC Circuits
226(13)
References
239(2)
14 Transformers
241(16)
How Transformers Work
242(2)
Transformation Equations
244(2)
Schematic Symbols
246(2)
Transformer Types and Applications
248(8)
References
256(1)
15 Switches
257(18)
Switch Styles
257(1)
Poles and Throws
258(3)
Momentary vs. Latching
261(1)
Break-Before-Make vs. Make-Before-Break
262(1)
Positions vs. Throws -- On/Off Switch Position Designators
263(2)
Circuit Symbols
265(1)
Electro-Mechanical and Electronic Switches
266(4)
Instructive Examples
270(3)
References
273(2)
16 Diodes
275(16)
Electrical Characteristics
276(6)
Diode Types
282(3)
Schematic Symbols
285(1)
Circuits
285(4)
References
289(2)
17 Transistors
291(24)
Transistor Types
291(3)
General Use and Operation
294(1)
Bipolar Junction Transistors (BJTs)
295(8)
Junction Field Effect Transistors (JFETs)
303(6)
Metal Oxide Semiconductor Field Effect Transistors (MOSFETs)
309(5)
References
314(1)
18 Integrated Circuits
315(20)
Selected ICs
316(1)
Opamps
316(8)
IC Power Amps
324(1)
LM317 Voltage Regulator
324(3)
NE555 Precision Timer
327(1)
4000 Series ICs
327(4)
Analog Optocouplers
331(2)
References
333(2)
19 Vacuum Tubes
335(10)
Principles of Operation
335(2)
Diode Tubes
337(2)
Triode Tubes
339(3)
Low Voltage Tube Circuits
342(1)
References
343(2)
20 Audio Transducers
345(26)
Microphones
345(4)
Loudspeaker Drivers
349(7)
Coil Pickups
356(6)
Piezo Elements
362(4)
Reverb Pans
366(1)
References
367(4)
Appendices
A Prefix Multipliers
371(2)
B Quantities and Equations
373(4)
Primary Quantities
373(1)
Decibel Equations
374(1)
Fundamental Laws
374(1)
Resistor Equations
374(1)
RLC Equations
375(1)
Transformer Equations
376(1)
Opamp Equations
376(1)
C Schematic Symbol Reference Chart
377(14)
D Circuit Catalogue
391(20)
Circuit Index
391(7)
Breadboard Layouts
398(6)
Stripboard Layouts
404(7)
Bibliography 411(6)
Index 417
Kevin Robinson is a degree-qualified electronics engineer who also holds diplomas in electronic music production and live sound engineering. He has taught electronics and audio technology on various diploma- and degree-level sound engineering courses, and also works as a live sound engineer.